High-Efficiency Power Factor Controller
NCP1612A, NCP1612B, NCP1612A1, NCP1612A2, NCP1612A3, NCP1612B2
Enhanced, High‐Efficiency Power Factor Controller
The N...
Description
NCP1612A, NCP1612B, NCP1612A1, NCP1612A2, NCP1612A3, NCP1612B2
Enhanced, High‐Efficiency Power Factor Controller
The NCP1612 is designed to drive PFC boost stages based on an innovative Current Controlled Frequency Fold-back (CCFF) method. In this mode, the circuit classically operates in Critical conduction Mode (CrM) when the inductor current exceeds a programmable value. When the current is below this preset level, the NCP1612 linearly decays the frequency down to about 20 kHz when the current is null. CCFF maximizes the efficiency at both nominal and light load. In particular, the stand-by losses are reduced to a minimum.
Like in FCCrM controllers, an internal circuitry allows near-unity power factor even when the switching frequency is reduced. Housed in a SO−10 package, the circuit also incorporates the features necessary for robust and compact PFC stages, with few external components.
General Features
Near-unity Power Factor Critical Conduction Mode (CrM) Current Controlled Frequency Fold-back (CCFF): Low Frequency
Operation is Forced at Low Current Levels
On-time Modulation to Maintain a Proper Current Shaping in CCFF
Mode
Skip Mode Near the Line Zero Crossing Fast Line/Load Transient Compensation
(Dynamic Response Enhancer)
Valley Turn On High Drive Capability: −500 mA/+800 mA VCC Range: from 9.5 V to 35 V Low Start-up Consumption Six Versions: NCP1612A, B, A1, A2, A3 and B2 (see Table 1) Line Range Detection pfcOK Signal This is a Pb-Fr...
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